KR101008844B1 - Heater having improved heat-change structure and heating structure, and used in electric boiler - Google Patents

Abstract

An object of the present invention is to provide a hot water heating device for use in a regenerative electric boiler having an improved heat exchange structure and a heat generation structure by utilizing the heat generated from the heater to have a high thermal efficiency and easy to manufacture,

In order to achieve the object of the present invention, the water circulation pipe used to heat the water of the electric boiler feeder is manufactured in a coil type without a gap, to maximize the use of heat generated from the heater.

Description

Heater having improved heat-change structure and heating structure, and used in electric boiler}

The present invention relates to a hot water heating apparatus for use in a regenerative electric boiler, and more particularly, to a hot water heating apparatus having an improved heat exchange structure and a heat generating structure having a high heat exchange rate by sufficiently utilizing heat from a heater heated by electricity.

In general, water heaters use oil or gas, but heating and water heating are increasingly used by electric boilers due to the late-night electric discount.

The method of heating water using the electric boiler as described above is to insert heat into the hot water tank to use heat from the heating element.

There are various such heating methods. First, the heater, which is an electric heating element, is brought into direct contact with water, a non-conductive liquid such as oil is first heated by the heater, and then indirectly by heating the water with the heated non-conductive liquid, and the heater is separated from the water. After that, there is a method of heating water by convection by installing a pipe through which water can circulate along the length of the heater.

However, when the heater, which is an electric heating element, is to be in direct contact with water, a material such as a ceramic material is covered and used around the heater. However, in this case, the heater is directly contacted with water by breaking the ceramic due to repeated heating. The whole device is likely to be damaged, so it is not used well now.

In a method in which a non-conductive liquid such as oil is first heated by a heater, and then the heated liquid is heated by heat exchange with water, it takes a long time to heat the non-conductive liquid with the heater and also the water is heated by the heated liquid. It takes a long time to heat, and it is difficult to quickly heat or supply hot water, which is not suitable for a large capacity electric boiler.

Insulate the heater from water and install a pipe that circulates the water along the length of the heater to heat the water by convection. The heater can be used to heat the water directly, allowing quick heating or hot water supply. However, since the number of pipes that can be installed along the length of the heater is limited, there is a disadvantage in that not enough heat from the heater is used.

On the other hand, the electric boiler which uses the method of heating water by the convection phenomenon which is widely used must install a plurality of circulation pipes for circulating water by welding or the like, and also in fixing the heater which is the heating body to the electric boiler. There have been some difficulties in the manufacture of the electric boiler, which requires the use of welding or screw assembly through a number of steps.

Therefore, it would be desirable to provide an electric boiler that can fully utilize thermal efficiency and that is easy to manufacture.

An object of the present invention is to provide a hot water heater for use in a regenerative electric boiler having a high heat efficiency and easy to manufacture, utilizing the heat generated from the heater and easy to manufacture.

In order to achieve the object of the present invention, according to the present invention, a hot water heating device for use in a regenerative electric boiler having an improved heat exchange structure and heat generating structure is a heater body, a first flange portion for fixing the heater body, The heater body accommodating the heater body in an electric boiler and one end is connected to the first flange portion by welding or the like, and a second flange portion for coupling the heating unit to the electric boiler body, that is, the hot water tank. And a packing part positioned between the flange parts when joining the first flange part and the second flange part.

In the hot water heating apparatus according to the present invention, the heater body accommodating portion accumulates heat generated from the heater of the heater body, and gradually discharges the heat accumulated after the heat of the electric boiler is turned off to heat the electric boiler feeder. A ceramic ball receiving portion is formed to receive the ceramic ball, which prevents the water from cooling rapidly.

In addition, in the hot water heating apparatus according to the present invention, the water circulation pipe used to heat the water in the electric boiler feeder is manufactured in a coil shape without a gap, to maximize the use of heat generated from the heater. Here, the water circulation pipe may be composed of one pipe, but may be used in two parts or three parts or more as necessary.

In addition, in the hot water heating apparatus according to the present invention, a groove corresponding to the shape of the heater is formed on the surface of the heater support portion on which the heater of the heater body is located, and the heater is subsequently struck by oxidation or deterioration of the heater. Will be prevented.

In the hot water heating apparatus for use in a regenerative electric boiler having an improved heat exchange structure and a heat generating structure, according to the present invention, the water circulation pipe used to heat the water in the electric boiler reservoir is manufactured in a coil shape without a gap, Most of the heat emitted from the heater of the electric boiler is used for heating water, thereby maximizing the thermal efficiency of the electric boiler.

In addition, by simply configuring the components of the electric boiler according to the present invention, the assembly step is reduced compared to the general electric boiler has the effect of reducing the manufacturing cost of the electric boiler.

In addition, by forming a groove corresponding to the coil-type heater on the surface of the heater support of the heater body used in the hot water heating apparatus according to the present invention, the heater is prevented from being struck due to deterioration or oxidation over a long period of use and durability There is an effect to increase.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is an exploded perspective view of a hot water heating device used in a hot water heating device for use in a regenerative electric boiler having an improved heat exchange structure and a heat generating structure according to the present invention, and FIG. 2 is an improved heat exchange structure according to the present invention. 3 is a cross-sectional view showing a cross section when the hot water heating device used in the heat storage electric boiler having a heat generating structure is installed, and FIG. 3 is a hot water heating device used in the heat storage electric boiler having an improved heat exchange structure and a heat generating structure according to the present invention. Figure showing the configuration of the heater body used.

1 and 2, according to the present invention, the hot water heating device 1000 used in the hot water heating device used in the regenerative electric boiler having an improved heat exchange structure and heat generating structure is a heater body 100, A first flange part 200 for fixing the heater body, and a heater body accommodating part 300 which tightly receives the heater body in an electric boiler and whose one end is connected to the first flange part by welding or the like. , A second flange 400 for coupling the heating unit to the electric boiler body, that is, the hot water tank, and a packing 500 positioned between the flanges when the first flange and the second flange are coupled to each other. It consists of.

The heater body 100 is a coil heater 110, a heater body for coupling with the cylindrical heater support portion 120 for supporting the coil heater, and the first flange portion 200 for fixing the heater body plan Branch 130 is composed. The heater support unit 120 in which the coil heater is wound is coupled through the heater body flange unit 130 and the connecting rod 140, and a power supply terminal 150 for supplying power to the coil heater in the upper portion of the heater body flange unit 150. ) Is installed. One of the power supply terminals is connected to one end of the coil type heater 110 closer to the connecting rod 140, and the other is connected to the other end of the coil type heater. Since the wires connecting the power supply terminals to the heater may be damaged by receiving a lot of heat by the heater, replace the wires with stainless steel pipes as necessary, and install the insulator around them to cause the wires to melt and break. To prevent it.

The heater body accommodating part 300 accommodates the heater body therein, and a coil-shaped water circulation pipe 310 is installed between the accommodated heater body and the accommodating part wall.

In addition, the lower end of the heater body accommodating portion, that is, the central portion of the remote portion away from the first flange 400, the ceramic ball receiving portion 320 is installed to accommodate the ceramic ball 321 therein.

When the heater body is accommodated in the heater body accommodating portion, the ceramic ball accommodating portion is inserted into the heater body, and when the heater of the heater body releases heat, the ceramic balls are heated by heat. The reason for storing the ceramic ball by installing the ceramic ball accommodating part is that when the electric boiler is turned off due to the characteristics of the electric boiler, the temperature rapidly decreases, and the hot water in the hot water tank may be cooled. Therefore, the ceramic ball receives heat from the heater during the operation of the electric boiler, and gradually releases the heat even after the heater is turned off, thereby preventing the hot water from the hot water tank from cooling quickly, thereby maximizing thermal efficiency.

In the heater body accommodating part, since the water circulation pipe 310 installed between the wall of the heater body accommodating part and the heater body is configured in a coil shape with almost no gap, it receives almost all the heat from the heater of the heater body. Therefore, the water flowing through the water circulation pipe can be heated more efficiently. Although the figure shows that two coil type water circulation pipes were provided, as needed, one water circulation pipe can be comprised, or three or more can be comprised.

Components as described above are assembled as follows to form the heating unit 1000 of the electric boiler.

First, the heater body flange part 130 and the first flange part 200 of the heater body are coupled using a screw and a bolt. Then, the ceramic ball accommodating part 320 for accommodating the ceramic ball is installed in the heater body accommodating part 300, and the coil-type water circulation pipe 310 is installed in the heater body accommodating part wall. Then, the second flange 400 is coupled to the electric boiler reservoir 600 containing the water to be heated. In this case, joining is performed by using a commonly used welding. Then, after the packing part 500 is installed on the second flange part 400, the heater body 100 connected to the first flange part 200 is inserted through the second flange part, and then, By fastening the first flange portion and the second flange portion with screws and bolts, the heating portion 1000 is coupled to the reservoir 600 of the electric boiler to complete the electric boiler.

As described above, the electric boiler according to the present invention, compared to the conventional electric boiler, because the step of coupling the components is much reduced, not only the manufacturing cost is lower but also the durability is stronger.

Figure 3 shows the configuration of the cylindrical support 120 in the heater body according to the present invention.

In general, a coil-type heater used in a general electric boiler may be oxidized or deteriorated over a long period of use, resulting in a loss of elasticity. Therefore, when the coil-type heater is struck, and the coiled heaters come into contact with each other, excessive resistance may occur and the heater itself may be damaged and not used. When the heaters come into contact with each other in this way and excessive resistance occurs, there is a possibility that not only the heater is broken but also the entire device in some cases. In order to prevent such a case, in the existing electric boiler, the coil is fixed by applying clay-like clay under the coil. However, in the case of applying clay material such as lime in this way, not only the workability is deteriorated but also the aesthetic appearance itself is not good.

Therefore, in the present invention, by forming a groove 121 corresponding to the shape of the coil-type heater on the surface of the support 120 of the heater body to install a coil along the groove, the coil due to oxidation or deterioration of the coil later This will prevent the drooping.

1 is an exploded perspective view of a hot water heating device used in a hot water heating device used in a regenerative electric boiler having an improved heat exchange structure and a heat generating structure according to the present invention.

Figure 2 is a cross-sectional view showing a cross section when installing a hot water heating apparatus for use in a regenerative electric boiler having an improved heat exchange structure and heat generating structure according to the present invention.

Figure 3 is a view showing the configuration of the heater body used in the hot water heating apparatus used in the heat storage electric boiler having an improved heat exchange structure and heat generating structure according to the present invention.

Claims (6)

A heater main body, a first flange portion for fixing the heater main body, a heater body accommodating portion that is tightly received and one end is connected to the first flange portion by welding, the heater body and the heater body accommodating portion A second flange portion for coupling to the electric boiler body, that is, the reservoir, and a packing portion positioned between the flange portions when the first flange portion and the second flange portion are coupled with screws and bolts, The heater body is composed of a coil-type heater, a cylindrical heater support for supporting the coil-type heater, and a heater body flange for coupling with the first flange portion for fixing the heater body, the heater support is a heater through the connecting rod It is coupled to the main body flange, the upper portion of the heater body flange is provided with a power supply terminal for supplying power to the coil-type heater, one of the power supply terminals is connected to one end of the coil-type heater near the connecting rod , The other is connected to the other end of the coiled heater, The heater body accommodating portion accommodates the heater body therein, and a coil type water circulation pipe is installed between the accommodated heater body and the accommodating part wall. Hot water heater used for. The hot water heating apparatus according to claim 1, wherein the coil-shaped water circulation pipe installed between the housed heater body and the housing wall is composed of one. The hot water heating apparatus according to claim 2, wherein the coil-shaped water circulation pipe provided between the housed heater body and the housing wall is composed of two or more. The hot water heating apparatus according to claim 1, further comprising conductors for connecting the power supply terminals to a heater, wherein the conductors are made of stainless steel, and insulators are installed around them. The hot water heating apparatus according to claim 4, wherein a ceramic ball accommodating part is installed at a lower end of the heater body accommodating part, that is, a central part of a part far from the first flange, and the ceramic ball is accommodated therein. The hot water heater according to claim 5, wherein a groove corresponding to the shape of the coil heater is formed on the surface of the support of the heater body, and a coil is installed along the groove.

Images